About us | Advertise with us | Contact us
Posted: 4 July 2022 | Hannah Balfour (European Pharmaceutical Review) | 2 comments
Here, EPR summarises Tim Sandle’s review of different methods for transferring items into aseptic areas, including decontamination chambers and pass-through hatches.
Ensuring potential microbial contaminants are not transferred into cleanroom environments is a key aspect of risk mitigation strategies.
In a review, pharmaceutical microbiologist and contamination control expert Tim Sandle, reviewed several methods of material transfer, listing the decontamination methods based on efficacy and commenting on their weaknesses.
Sandle states that there is a contamination control hierarchy with the different methods of transferring items into an aseptic area.
Autoclaving and depyrogenation tunnels are the most effective ways to transfer items into an aseptic processing area, as they are sterilisation methods, rather than disinfection.
Automated cycle decontamination chambers present the next lowest contamination risk, with typically triple-wrapped items sterilised with gamma radiation or ethylene oxide gas passing through a decontamination chamber where a sporicidal disinfectant is used to kill dormant bacterial spores.
Following decontamination chambers is dynamic pass-through hatches with HEPA filtered air supply – these requires a manual disinfection step with a sporicidal agent.
Presenting the greatest risks of contamination are static pass-through hatches without air supply and personnel carrying items in via changing rooms etc, respectively.
The minimum EU GMP Annex 1 requirement for transfer disinfection/decontamination is a transfer hatch with localised air supplies (Grade A / ISO class 5 at rest), also known as a dynamic pass-through hatch. Sandle noted that the revised EU GMP Annex 1 highlights the importance of the transfer of materials, placing “an emphasis upon robust disinfection practices where the use of double-ended autoclaves is not possible.”
According to Sandle, the transfer of materials is most critical between Grade C (ISO class 8 in operation) and Grade B (ISO class 7 in operation) cleanrooms. For such applications, he reviewed decontamination chambers and dynamic and static hatches.
“While all pass-through activities present the risk of passive particle transfer, the automated decontamination chamber presents the best chance of inactivating those particles that are microbial in nature compared with dynamic and static hatches,” wrote Sandle.
Tracking and tracing to the root cause: case studies in microbial contamination…
He notes: “The objectives of an automated cycle decontamination chamber are to decontaminate both the chamber and the load.” The ability of the device to achieve a sufficient level of biological kill is assessed using an organism resistant to hydrogen peroxide vapour, such as Geobacillus stearothermophilus.
Decontamination chambers are designed to ensure EU GMP Grade A / ISO 14644 class 5 cleanliness levels with unidirectional airflow.
Hydrogen peroxide decontamination, the most common form, has four stages:
Sandle wrote that the effectiveness of hydrogen peroxide vapour depends both on the overall concentration and the even distribution of the hydrogen peroxide inside the chamber. The vapour cannot kill microorganisms protected by a covering or shielded by other surfaces; this must be considered in loading practices, and hanging items within the chamber rather than laying them flat will enable more effective distribution of the vapour and hence greater decontamination.
Pass-through hatches can also be used, but both static and dynamic hatches require a manual disinfection step. Static hatches are best used for transfer between cleanrooms of the same grade and outside of aseptic areas, according to Sandle, while dynamic hatches can be used in aseptic areas and to transfer between different cleanroom grades.
The most important aspect of the use of pass-through hatches is transfer disinfection, which involves the manual application of a sporicide on the surface, followed by the application of an alcohol-based disinfectant.
The use of pre-sterilised multi-wrapped procedure kits whereby successive layers of wrapping can be removed as items are transition from outside, through controlled-not-classified areas, and the cleanroom cascade, is key.
“It is recognised that different facilities will have different levels of technology… Nevertheless, qualified, automated systems will always confer an advantage. This is because the use of operator dependent wipe-spray transfer disinfection techniques is widely recognised as one of the weakest links in the aseptic process. Many objects are too bulky, uneven with their surface topography, or there are simply too many items for an operator to process consistently. However, automated decontamination systems are not without their weaknesses and they require reproducible qualification,” concluded Sandle.
The review was published in the Journal of GXP Compliance.
Cleanrooms, Drug Manufacturing, Drug Safety, Environmental Monitoring, Good Manufacturing Practice (GMP), Industry Insight, Lab Equipment, Microbiology, QA/QC
Tim Sandle (Bio Products Laboratory)
By Hannah Balfour (European Pharmaceutical Review)
Cleanrooms, Drug Manufacturing, Drug Safety, Environmental Monitoring, Good Manufacturing Practice (GMP), Industry Insight, Lab Equipment, Microbiology, QA/QC
Tim Sandle (Bio Products Laboratory)
All subscriptions include online membership, giving you access to the journal and exclusive content.
By Mandy Parrett (European Pharmaceutical Review)
By Hannah Balfour (European Pharmaceutical Review)
By Hannah Balfour (European Pharmaceutical Review)
There’s a typo for depyrogenation tunnel. “dehydrogenation” tunnel xD
Thanks for highlighting this issue, it has now been updated
Your email address will not be published. Required fields are marked *
This site uses Akismet to reduce spam. Learn how your comment data is processed.
Write for us | Advertise with us
European Pharmaceutical Review is published by: Russell Publishing Ltd. Court Lodge Hogtrough Hill Brasted, Kent, TN16 1NU United Kingdom
© Russell Publishing Limited, 2010-2022. All rights reserved.
Website development by e-Motive Media Limited.
This website uses cookies to improve your experience while you navigate through the website. Out of these cookies, the cookies that are categorised as ”Necessary” are stored on your browser as they are as essential for the working of basic functionalities of the website. For our other types of cookies “Advertising & Targeting”, “Analytics” and “Performance”, these help us analyse and understand how you use this website. These cookies will be stored in your browser only with your consent. You also have the option to opt-out of these different types of cookies. But opting out of some of these cookies may have an effect on your browsing experience. You can adjust the available sliders to ‘Enabled’ or ‘Disabled’, then click ‘Save and Accept’. View our Cookie Policy page.
Necessary cookies are absolutely essential for the website to function properly. This category only includes cookies that ensures basic functionalities and security features of the website. These cookies do not store any personal information.
CookieDescriptioncookielawinfo-checkbox-advertising-targetingThe cookie is set by GDPR cookie consent to record the user consent for the cookies in the category "Advertising & Targeting".cookielawinfo-checkbox-analyticsThis cookie is set by GDPR Cookie Consent WordPress Plugin. The cookie is used to remember the user consent for the cookies under the category "Analytics".cookielawinfo-checkbox-necessaryThis cookie is set by GDPR Cookie Consent plugin. The cookie is used to store the user consent for the cookies in the category "Necessary".cookielawinfo-checkbox-performanceThis cookie is set by GDPR Cookie Consent WordPress Plugin. The cookie is used to remember the user consent for the cookies under the category "Performance".PHPSESSIDThis cookie is native to PHP applications. The cookie is used to store and identify a users' unique session ID for the purpose of managing user session on the website. The cookie is a session cookies and is deleted when all the browser windows are closed.viewed_cookie_policyThe cookie is set by the GDPR Cookie Consent plugin and is used to store whether or not user has consented to the use of cookies. It does not store any personal data.zmember_loggedThis session cookie is served by our membership/subscription system and controls whether you are able to see content which is only available to logged in users.